What determines biological diversity?
Presenting person: Dr. Lars Markesteijn, Community Ecology Research Oxford, University of Oxford, UK / Smithsonian Tropical Research Institute, Panama (Homepage)We. 2015-10-28 (15:15-16:45), H36, NW III
Tropical forests are extremely divers. Over 300 tree species can coexist in a single hectare and as many as 16,000 tree species are thought to exist in the Amazon basin alone. Why are tropical forests so remarkably diverse? This is a key, yet unresolved question facing Ecology.
Showcasing some of my and collaborators work from Bolivia and Panama, I will demonstrate how two of the most persisting theories explaining tropical species coexistence, the Niche Theory and the Janzen-Connell Hypothesis, are mutually compatible and I will use these examples to introduce a novel avenue of future research that I aim to develop further at the Bayreuth University.
Niche Theory postulates that differences among species govern their specialization for distinct resource niches – so-called niche partitioning. I will show how this is true for coexisting tropical tree species and how species’ functional traits influence their competitive success and performance along combined water and light gradients.
As Niche Theory is not particularly good at explaining why ‘stronger’ competitors do not always outcompete ‘weaker’ ones and become locally dominant, alternative mechanisms are needed. This is where the Janzen-Connell Hypothesis becomes important, as it postulates that density-dependent mortality mediated by plant natural enemies -fungal pathogens and insect herbivores-, puts locally rare species at an advantage, preventing any one species from dominating. I will illustrate this by showing how natural enemies drive changes in negative-density dependence and diversity across a tropical rainfall gradient using novel findings from a large field-based study in Central Panama.
Finally, I will elaborate on how I aim to combine key elements from Niche Theory and the Janzen-Connell Mechanism in a new project at Bayreuth to explain the directional turnover of tree species during secondary tropical forest succession, and to inform and improve restoration ecology and sustainable reforestation efforts in the tropics.
*** Invited by Bettina Engelbrecht, Functional and Tropical Plant Ecology / Fachgruppe Biologie
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